My passion for the night sky began at the tender age of 8 with an elementary school
library book entitled "Stars". I leaned from that faithful day that the Sun is a
typical star in the night sky and one of 200 billion stars of our Milky Way Galaxy.
But not all stars are the same. They come in an array of different sizes, ages,
colours, temperatues, distances as well as a combination of chemical elements. But
how diid our Sun come to be?
Some 5 billion years ago the Sun developed from a shell of gas and dust in an interstellar
cloud measuring hundreds of light years across. A light year is about ten trillion
kilometres in length. Most likely the shockwave of a nearby explosing star called
a supernova sent pockets of material into a spinning motion.
Over time these pockets began to condense and collapse upon itself, with this spinning
motion drawing material towards its centre like a giant cosmic blender. The spinning
also caused the cloud to flatten out and widen like pizza dough. Our protostar at
the centre began getting hotter and larger with gravity pulling in more gas. This
"snowball effect" continued until our Sun grew to its present size of 1.4 million
kilometres across or 109 earths lined up side by side like a string of pearls. There
were most likely other sibling stars born from that same interstellar cloud so long
Once the Sun reached a critical internal temperature of 15 million degrees Celcius,
it lit up by nuclear fusion and the shock wave blew away some of the closer material
outwards into the pancake of dust. Over time dust grains began sticking together
to produce sand size particles. As more material stuck together and grew like sticking
bits of Play-Doh together, about 100 baby planets called planetesimals came to be.
Buzzing in all directions like a cosmic demolition derby, collisons resulted in
utter destruction of the two bodies or the soft merger to create new larger worlds.
When all was said and done the solar systen was now a family of eight main planets,
hundreds of moons, tens of thousands of asteroids and billions of comets.
We refer the Sun as our daytime star and we orbit it at an average distance 150
million kilometres or one astronomical unit (AU). An AU is used as a cosmic metre
stick when measuring celestial objects close to their parent stars. This is a mere
baby step compared to our closest night time star called Proxima Centarui at 4.3
light years (ly) away. This star is located in the southern hemisphere and not seen
from Canada. We do however see the bright star Sirius at 8.6 ly from us. Our Sun
is considered a little less than average size compared to the rest of the galaxy.
Some super massive stars measure 30 or more times the size of the Sun and reside
hundreds to thousands of light years away. End to end our Milky Way Galaxy measures
100,000 light years across.
We own our very existance to the creation of the Sun and planets. The Earth has
created some 4.5 billion years ago with simple cell organisms emerging a few million
years later. About 3.8 billion yers ago, cyanobacteria began forming mostly on
stromatolites thus beginning the process of photosynthesis that produced
oxygen. The Sun is not only a heat and light source but grows our our food and helps
our skin produce vitamin D which is good for our health. Earth is perfectly positioned
in the habitable or "Goldie Locks Zone" where oceans remaid liquid with water is
the key to life. If our planet was closer or farther from the Sun, water would boil
away or freeze. So life is a result of the coming together of so many factors.
To date more than 4,000 exoplanets have been found orbitting distance stars with
a few thousand more possible candidates. A few exoplanets are believed to lie in
habitable zone so if that planet has water, life might also be possible. The same
92 natural elements found on the periodic table are found throughout the entire
universe with the recipe of life in the making.
Next time you look up at the night sky, you might be gazing upon distant solar systems
with a planet and the possibility of life.
International Space Station
Till next time, clear skies.
Known as "The Backyard Astronomer", Gary Boyle is an astronomy educator, guest speaker
and monthly columnist for the Royal Astronomical Society of Canada. He has been
interviewed on more than 50 Canadian radio stations and local Ottawa TV. In recognition
of his public outreach in astronomy, the International Astronomical Union has honoured
him with the naming of Asteroid (22406) Garyboyle. Follow him on Twitter: @astroeducator
or his website: www.wondersofastronomy.com